CN221010172U - Gravity vehicle-mounted bracket - Google Patents

Abstract

The utility model discloses a gravity vehicle-mounted bracket, which comprises a shell part, a sliding arm part, a clamping piece and a torsion spring structure, wherein a profile cavity is arranged on the back surface of a first shell, and a sliding channel is further arranged on the inner wall of the profile cavity; the back end part of the first shell is also provided with a first fixed column and a second fixed column which are arranged at intervals; the first sliding arm and the second sliding arm are arranged in the sliding channel, clamping pieces are arranged at the opposite ends of the first sliding arm and the second sliding arm, and supporting plates for supporting the mobile phone are arranged at the same ends of the two clamping pieces; the first spring coil and the second spring coil of the torsion spring structure are correspondingly sleeved on the first fixed column and the second fixed column, the first torsion leg and the second torsion leg at the end part extend to the opposite ends of the first sliding arm and the second sliding arm, the first sliding arm and the second sliding arm can slide in the sliding channel through the cooperation of the torsion spring structure and the fixed column, and after being pressed, the elastic clamping piece provided by the torsion spring structure realizes the opening and closing action so as to realize the clamping of all mobile phones.

Description

Gravity vehicle-mounted bracket

Technical Field

The utility model relates to the field of mobile phone supports, in particular to a gravity vehicle-mounted support.

Background

The vehicle-mounted mobile phone support is a support for fixing a mobile phone on a vehicle; the vehicle-mounted mobile phone supports in the market are various, and the gravity vehicle-mounted mobile phone support is popular because the gravity vehicle-mounted mobile phone supports can be operated by one hand, so that the mobile phone is placed on the support and clamped under the action of the gravity linkage component;

The existing gravity vehicle-mounted bracket mainly comprises a shell and a linkage assembly positioned in the shell, wherein two sides of the linkage assembly slide out of the shell and are connected with clamping pieces; in the scheme, the linkage assembly needs to enable the clamping piece to shrink so as to clamp the mobile phone, and the structure is complicated and the assembly is difficult; for example, patent application numbers CN202022300859.8, CN201820130322.9, etc.; therefore, a gravity vehicle-mounted bracket with a more reasonable structure, a simple structure and high working stability is needed.

Disclosure of utility model

Aiming at the technical problems of complex linkage structure and difficult assembly in the existing gravity vehicle-mounted bracket and positioned in the shell, the utility model provides a solution.

In order to achieve the above object, the present utility model provides a gravity vehicle-mounted bracket, comprising:

The back of the first shell is provided with a section cavity, the inner wall forming the section cavity is also provided with a sliding channel, and two end openings of the sliding channel extend to two sides of the first shell; the back end part of the first shell is also provided with a first fixed column and a second fixed column which are arranged at intervals; the second shell covers the back surface of the first shell;

The first sliding arm and the second sliding arm are arranged in the sliding channel and extend out of the first shell in a sliding manner; clamping pieces are arranged at the opposite ends of the first sliding arm and the second sliding arm, and supporting plates for supporting the mobile phone are arranged at the same ends of the two clamping pieces;

The torsion spring structure comprises a first spring coil and a second spring coil which are connected, and the first spring coil and the second spring coil are correspondingly sleeved on the first fixing column and the second fixing column; one end of the torsion spring structure is further provided with a first torsion foot and a second torsion foot, and the first torsion foot and the second torsion foot extend to two opposite ends of the first sliding arm and the second sliding arm so that the clamping pieces are positioned at the two sides which are pressed to open and close.

As an improvement of the utility model, the two ends of the sliding channel are also provided with limiting protrusions, the first sliding arm and the second sliding arm are respectively provided with a limiting through groove, and the limiting protrusions are arranged in the limiting through grooves, so that the first sliding arm and the second sliding arm form a retracted first limit position.

As an improvement of the utility model, the opposite ends of the first sliding arm and the second sliding arm are respectively provided with a rotary groove, and the clamping pieces at two sides are respectively provided with a rotating shaft structure connected with the rotary grooves; when the mobile phone is in operation, the clamping pieces at two sides rotate in the rotating shaft structure, so that the two bearing plates are attached to the bottom of the mobile phone.

As an improvement of the utility model, a notch structure is also arranged at the notch section of the rotary groove, and the cylindrical surface of the rotating shaft structure is provided with a convex structure matched with the notch structure; during assembly, the notch structure and the protruding structure are mutually embedded, so that the clamping pieces on two sides are inclined in taper.

As an improvement of the utility model, the two sides of the front surface of the first shell are also provided with baffle plates, and the baffle plates on the two sides are obliquely arranged so as to be respectively abutted against the edge parts of the clamping pieces on the same side.

As an improvement of the utility model, a mounting stud is further arranged on one surface of the second shell, which is far away from the first shell, and the mounting stud is used for being connected with a central control mounting table fixed on an automobile.

As an improvement of the utility model, a main control board is also arranged in the profile cavity, the surface of the first shell is also provided with a magnetic charging assembly, and the magnetic charging assembly is electrically connected with the main control board.

As an improvement of the utility model, the holding surfaces formed by the holding pieces at the two sides are provided with the avoiding structures, and the avoiding structures are used for avoiding keys at the side of the mobile phone in the holding state.

The beneficial effects of the utility model are as follows: compared with the prior art, the gravity vehicle-mounted bracket comprises a shell part, a sliding arm part, a clamping piece and a torsion spring structure, wherein a profile cavity is arranged on the back surface of a first shell, a sliding channel is further arranged on the inner wall forming the profile cavity, and two end openings of the sliding channel extend to two sides of the first shell; the back end part of the first shell is also provided with a first fixed column and a second fixed column which are arranged at intervals; the second shell covers the back surface of the first shell; the first sliding arm and the second sliding arm are arranged in the sliding channel and slide out of the first shell; clamping pieces are arranged at the opposite ends of the first sliding arm and the second sliding arm, and supporting plates for supporting the mobile phone are arranged at the same ends of the two clamping pieces; the torsion spring structure comprises a first spring coil and a second spring coil which are connected, and the first spring coil and the second spring coil are correspondingly sleeved on the first fixed column and the second fixed column; one end of the torsion spring structure is also provided with a first torsion foot and a second torsion foot, and the first torsion foot and the second torsion foot extend to the opposite two ends of the first sliding arm and the second sliding arm so as to retract the clamping pieces on the two sides which are pressed and opened; through the cooperation of torsional spring structure and fixed column, can realize that first sliding arm and second sliding arm slide in the slip passageway, after the pressurized, realize opening and shutting the action through the elasticity holder that torsional spring structure provided to realize the centre gripping of all cell-phones.

Drawings

FIG. 1 is a perspective view of the present utility model;

FIG. 2 is an exploded view of the present utility model;

FIG. 3 is a schematic view of the back structure of the first housing of the present utility model;

FIG. 4 is a schematic view of a clamping member according to the present utility model;

FIG. 5 is a first linkage arm and second linkage arm mating view of the present utility model;

FIG. 6 is a perspective view of another embodiment of the present utility model;

FIG. 7 is a schematic view of the torsion spring structure of the present utility model.

The main reference numerals are as follows:

1. A first housing; 11. a sliding channel; 12. a first fixing column; 13. a second fixing column;

14. a limit protrusion; 15. a baffle; 16. a magnetic charging assembly;

2. A second housing; 21. installing a stud;

3. A clamping member; 31. a bearing plate; 32. a rotating shaft structure; 33. a bump structure; 34. an avoidance structure;

4. A torsion spring structure; 41. a first coil; 42. a second coil; 43. the first torsion leg;

44. the second torsion leg;

A. A first slide arm; B. a second slide arm; C. a rotary groove; c1, a notch structure.

Detailed Description

In order to more clearly illustrate the utility model, the utility model is further described below with reference to the accompanying drawings.

In the following description, details of selected examples are given to provide a more thorough understanding of the present utility model. It will be apparent that the described embodiments are only some, but not all, embodiments of the utility model. It should be understood that the detailed description is intended to illustrate the utility model, and is not intended to limit the utility model.

It will be understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of stated features, integers, steps, operations, elements, or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or groups thereof.

In order to solve the above-mentioned technical problems, the present application provides a gravity vehicle-mounted bracket, please refer to fig. 1 to 7, which includes a housing portion, a sliding arm portion, a clamping member and a torsion spring structure, wherein a profile cavity is provided on the back of the first housing 1, a sliding channel 11 is further provided on the inner wall forming the profile cavity, and two end openings of the sliding channel 11 extend to two sides of the first housing 1; the back end part of the first shell 1 is also provided with a first fixed column 12 and a second fixed column 13 which are arranged at intervals; the second shell 2 covers the back surface of the first shell 1; the first sliding arm A and the second sliding arm B are arranged in the sliding channel 11 and slide out of the first shell 1; the opposite ends of the first sliding arm A and the second sliding arm B are respectively provided with a clamping piece 3, and the same ends of the two clamping pieces 3 are respectively provided with a supporting plate 31 for supporting the mobile phone; the torsion spring structure 4 comprises a first spring coil 41 and a second spring coil 42 which are connected, and the first spring coil 41 and the second spring coil 42 are correspondingly sleeved on the first fixed column 12 and the second fixed column 13; the torsion spring structure 4 is also provided with a first torsion foot 43 and a second torsion foot 44, and the first torsion foot 43 and the second torsion foot 44 extend to opposite two ends of the first sliding arm A and the second sliding arm B so as to retract the pressed open-close two-side clamping pieces 3;

Through torsion spring structure 4 and fixed column matched with, can realize that first sliding arm A and second sliding arm B slide in slide channel 11, after the pressurized, realize opening and closing the action through the elasticity holder that torsion spring structure 4 provided to realize the centre gripping of all cell-phones.

In order to make the sliding of the first sliding arm a and the second sliding arm B smoother and have better mechanical stability, in the embodiment, the two ends of the sliding channel 11 are also provided with limiting protrusions 14, the first sliding arm a and the second sliding arm B are respectively provided with a limiting through groove, and the limiting protrusions 14 are arranged in the limiting through grooves so that the first sliding arm a and the second sliding arm B form a retracted first limit position; it will be appreciated that the first sliding arm a and the second sliding arm B slide more smoothly and the working stability is better by the cooperation of the limit protrusion 14 and the limit through groove.

In order to make the mobile phone support more stable, in this embodiment, the opposite ends of the first sliding arm a and the second sliding arm B are both provided with a rotating groove C, and the two side clamping members 3 are both provided with a rotating shaft structure 32 connected with the rotating groove C; when the mobile phone is in operation, the clamping pieces 3 at two sides rotate through the rotating shaft structure 32, so that the two bearing plates 31 are attached to the bottom of the mobile phone; it will be appreciated that the support plate 31 is used to support the bottom of the mobile phone, and in the supported state, the gravity of the mobile phone makes the clamping members on both sides to be matched with the rotating shaft structure 32 through the rotating groove C to deflect to a certain extent, and the two sides of the mobile phone are clamped.

In a more preferable scheme, a notch structure C1 is further arranged at the notch section of the rotary groove C, and a convex structure 33 matched with the notch structure C1 is arranged on the cylindrical surface of the rotating shaft structure 32; during assembly, the notch structure C1 and the convex structure 32 are mutually embedded, so that the clamping pieces 3 at two sides are obliquely arranged with taper; the notch structure C1 and the bulge structure 32 are matched and embedded, on one hand, a certain guiding assembly effect is provided, so that the clamping piece 3 and the sliding arm are assembled quickly; on the other hand, the two clamping pieces 3 are assembled on the surface of the first shell 1 in a certain taper, so that the mobile phone can be placed conveniently.

In a more preferable scheme, two sides of the front surface of the first shell 1 are also provided with baffle plates 15, and the baffle plates 15 on the two sides are obliquely arranged so as to respectively abut against the edge parts of the clamping pieces 3 on the same side; the baffles 15 on the two sides are used for resisting clamping pieces on the same side, and can keep stable preset taper.

In this embodiment, a mounting stud 21 is further disposed on a surface of the second housing 2 away from the first housing, and the mounting stud 21 is used for connecting with a central control mounting table fixed on an automobile; it will be appreciated that rapid assembly is achieved by mounting studs 21 with the mounting table;

In the embodiment, a main control board is further arranged in the profile cavity, the surface of the first shell 1 is also provided with a magnetic charging assembly 16, and the magnetic charging assembly 16 is electrically connected with the main control board; it will be appreciated that the weight mobile phone support is often used with mobile phone navigation software in the use process, in order to ensure the mobile phone endurance, the magnetic charging assembly 16 is additionally arranged to expand the wireless charging function, the endurance of the mobile phone is increased, and the stability of the mobile phone on the gravity support is further ensured under the synergistic effect of the magnetic adsorption, the supporting plate and the clamping piece of the magnetic charging assembly.

In order to prevent the problem of false touch of the clamping piece 3 in the mobile phone clamping process, in this embodiment, the clamping surfaces formed by the clamping pieces 3 on both sides are provided with avoiding structures 34, and the avoiding structures 34 are used for avoiding keys on the mobile phone side in the clamping state; based on the usage habit of people, the physical keys of a plurality of mobile phones are arranged on two sides of the outer side, and the physical keys are avoided by arranging the corresponding avoiding structures, and the avoiding structures 34 can be groove bodies or through holes.

For a more clear solution of the application, the following will be further elucidated by the combined use scenario: the gravity mobile phone support is assembled in a central control area of an automobile, and in an initial state, two opposite ends of the first sliding arm A and the second sliding arm B are mutually attached under the action of the torsion spring structure 4, so that the clamping pieces 3 on two sides are in a folded state; the user assembles the mobile phone on the bearing plate 31, the bearing plate 31 is pressed to force the clamping pieces 3 at two sides to be relatively unfolded and deflect to a certain extent, the two bearing plates 31 bear two sides of the end part of the mobile phone based on the dead weight of the mobile phone, and the clamping pieces clamp two sides of the mobile phone; when the mobile phone is separated, the first sliding arm A and the second sliding arm B of the torsion spring structure 4 are contracted to realize resetting, the clamping pieces on the two sides are folded and blocked by the baffle plate, a certain taper is maintained, and the mobile phone is convenient for a user to use again.

The utility model has the advantages that:

Through the cooperation of torsional spring structure and fixed column, can realize that first sliding arm and second sliding arm slide in the slip passageway, after the pressurized, realize opening and shutting the action through the elasticity holder that torsional spring structure provided to realize the centre gripping of all cell-phones.

The above disclosure is only a few specific embodiments of the present utility model, but the present utility model is not limited thereto, and any changes that can be thought by those skilled in the art should fall within the protection scope of the present utility model.

Claims (8)

1. A gravity vehicle mount, comprising:

The back of the first shell is provided with a section cavity, the inner wall forming the section cavity is also provided with a sliding channel, and two end openings of the sliding channel extend to two sides of the first shell; the back end part of the first shell is also provided with a first fixed column and a second fixed column which are arranged at intervals; the second shell covers the back surface of the first shell;

The first sliding arm and the second sliding arm are arranged in the sliding channel and extend out of the first shell in a sliding manner; clamping pieces are arranged at the opposite ends of the first sliding arm and the second sliding arm, and supporting plates for supporting the mobile phone are arranged at the same ends of the two clamping pieces;

The torsion spring structure comprises a first spring coil and a second spring coil which are connected, and the first spring coil and the second spring coil are correspondingly sleeved on the first fixing column and the second fixing column; one end of the torsion spring structure is also provided with a first torsion foot and a second torsion foot, and the first torsion foot and the second torsion foot extend to the opposite ends of the first sliding arm and the second sliding arm so as to enable the clamping pieces to retract at the two sides which are pressed to open and close.

2. The gravity vehicle-mounted bracket according to claim 1, wherein limiting protrusions are further arranged at two ends of the sliding channel, the first sliding arm and the second sliding arm are respectively provided with a limiting through groove, and the limiting protrusions are arranged in the limiting through grooves, so that the first sliding arm and the second sliding arm form a retracted first limit position.

3. The gravity vehicle-mounted bracket according to claim 1, wherein the opposite ends of the first sliding arm and the second sliding arm are respectively provided with a rotating groove, and the clamping pieces on both sides are respectively provided with a rotating shaft structure connected with the rotating grooves; when the mobile phone is in operation, the clamping pieces at two sides rotate in the rotating shaft structure, so that the two bearing plates are attached to the bottom of the mobile phone.

4. The gravity vehicle-mounted bracket according to claim 3, wherein a notch structure is further arranged at the notch section of the rotary groove, and a convex structure matched with the notch structure is arranged on the cylindrical surface of the rotating shaft structure; during assembly, the notch structure and the protruding structure are mutually embedded, so that the clamping pieces on two sides are inclined in taper.

5. The gravity vehicle-mounted bracket according to claim 4, wherein two sides of the front surface of the first housing are further provided with baffles, and the baffles on the two sides are obliquely cut so as to respectively abut against the edge parts of the clamping pieces on the same side.

6. The gravity vehicle bracket according to claim 1, wherein a mounting stud is further provided on a side of the second housing away from the first housing, the mounting stud being adapted to be connected to a center console mounted on an automobile.

7. The gravity vehicle-mounted bracket of claim 1, wherein a main control board is further arranged in the profile cavity, a magnetic charging assembly is further arranged on the surface of the first shell, and the magnetic charging assembly is electrically connected with the main control board.

8. The gravity vehicle-mounted bracket of claim 1, wherein the clamping surfaces formed by the clamping pieces on both sides are provided with avoidance structures, and the avoidance structures are used for avoiding keys on the sides of the mobile phone in a clamping state.